There’s another type of radio that could save lives if implemented in smartphones. In the United States, the NOAA runs a network of radio towers that broadcast up-to-the-minute weather reports and automated alerts, which are specifically designed to stay running during tornadoes and other emergencies. The signals are broadcasted on 162.400 – 162.550 MHz, above the FM band, allowing the signals to travel much farther than regular radio or cell networks.
Higher frequencies travel shorter distances and permeate through buildings and trees less, so 162.4 - 162.55 MHz is going to be worse than the rest of the FM band (but still better than cell frequencies).
Apologies, I accidentally missed off the end of the quote, the bit I was commenting on:
The signals are broadcasted on 162.400 – 162.550 MHz, above the FM band, allowing the signals to travel much farther than regular radio or cell networks.
I agree that it isn’t much different. However it is objectively worse than regular FM radio, not better as the article claimed.
Higher frequencies travel shorter distances and permeate through buildings and trees less, so 162.4 - 162.55 MHz is going to be worse than the rest of the FM band (but still better than cell frequencies).
It’s not that straight forward. And in a practical sense 162MHz is hardly significantly higher than 100MHz.
Apologies, I accidentally missed off the end of the quote, the bit I was commenting on:
I agree that it isn’t much different. However it is objectively worse than regular FM radio, not better as the article claimed.